Details of Virus RNA

Strain Information	Strain Name	West Nile Virus (strain EG101)
	Strain Family	Flaviviridae
	RNA Binding Site	3'UTR
Virus Information	Virus Name	West Nile Virus (WNV)
Virus Information	Taxonomy ID	11082

Protein Name	Uniprot ID	Host Species	Pro Info	Detection Method	Infection Cell	Cell ID	Cell Originated Tissue	Infection Time	Interaction Score	Fold Change
Elongation factor 1-alpha 1	P62629	Cricetulus griseus	Pro Info	Coimmunoprecipitation (Co-IP) and western blotting (WB)	BHK-21 Cells (Small hamster kidney fibroblast); BHK-WI2 Cells (Small hamster kidney fibroblast)	.	Kidney	24 h	.	.
Nucleolysin TIA-1	P52912	Mus musculus	Pro Info	Co-immunoprecipitation assays (Co-IP)	BHK-21 Cells (Small hamster kidney fibroblast)	.	Kidney	1 h	.	.
Nucleolysin TIA-1 isoform p40	P31483	Homo sapiens	Pro Info	Competition gel mobility shift assays and UV cross-linking (UVX)	BHK Cells (Small hamster kidney fibroblast)	.	Kidney	.	.	.
Nucleolysin TIAR	Q01085	Homo sapiens	Pro Info	Competition gel mobility shift assays and UV cross-linking (UVX)	BHK Cells (Small hamster kidney fibroblast)	.	Kidney	.	.	.
Nucleolysin TIAR	P70318	Mus musculus	Pro Info	Co-immunoprecipitation assays (Co-IP)	BHK-21 Cells (Small hamster kidney fibroblast)	.	Kidney	1 h	.	.

GO Term	GO Category	GO ID	Adjusted P-value	Odds Ratio	Combined Score
mRNA 3'-UTR Binding	Molecular Function	GO:0003730	0.000831684	437.4945055	4224.887763
RNA Binding	Molecular Function	GO:0003723	0.002277889	55767	443699.4499
mRNA Binding	Molecular Function	GO:0003729	0.002551385	140.8357143	1047.459405
poly Binding	Molecular Function	GO:0008143	0.012071706	416.1041667	2324.863325
Poly-Purine Tract Binding	Molecular Function	GO:0070717	0.012071706	332.7833333	1787.845974
tRNA Binding	Molecular Function	GO:0000049	0.016533405	199.47	972.5284118
GTP Binding	Molecular Function	GO:0005525	0.051944711	49.4925	173.7975592
Guanyl Ribonucleotide Binding	Molecular Function	GO:0032561	0.051944711	43.93777778	149.1959056
GTPase Activity	Molecular Function	GO:0003924	0.051944711	37.37310606	121.0283454
Ribonucleoside Triphosphate Phosphatase Activity	Molecular Function	GO:0017111	0.051944711	36.66914498	118.0724335
Kinase Binding	Molecular Function	GO:0019900	0.074711636	21.2832244	57.39430108
Purine Ribonucleoside Triphosphate Binding	Molecular Function	GO:0035639	0.074711636	20.54947368	54.72955385
Protein Kinase Binding	Molecular Function	GO:0019901	0.074711636	19.10490196	49.56039732
Cytoplasmic Stress Granule	Cellular Component	GO:0010494	0.000810248	538.4594595	5418.307392
Nuclear Stress Granule	Cellular Component	GO:0097165	0.007123399	2499.125	17982.859
Cytoplasmic Side Of Lysosomal Membrane	Cellular Component	GO:0098574	0.011393513	908.4545455	5741.921288
Cortical Actin Cytoskeleton	Cellular Component	GO:0030864	0.031282261	232.0232558	1165.417706
Cortical Cytoskeleton	Cellular Component	GO:0030863	0.035739719	160.766129	749.9503377
Nucleus	Cellular Component	GO:0005634	0.035739719	46539	208688.8874
Cytoplasmic Vesicle Lumen	Cellular Component	GO:0060205	0.038712569	87.20614035	354.550257
Intracellular Membrane-Bounded Organelle	Cellular Component	GO:0043231	0.038712569	44475	180395.7789
Ficolin-1-Rich Granule Lumen	Cellular Component	GO:1904813	0.038712569	81.45491803	325.7223629
Ficolin-1-Rich Granule	Cellular Component	GO:0101002	0.05196127	54.13661202	194.8436501
Lytic Vacuole	Cellular Component	GO:0000323	0.057137941	44.53828829	151.8234808
Secretory Granule Lumen	Cellular Component	GO:0034774	0.070525876	31.24126984	95.75231449
Actin Cytoskeleton	Cellular Component	GO:0015629	0.070525876	30.1702454	91.45401568
Lysosomal Membrane	Cellular Component	GO:0005765	0.071192264	27.66478873	81.54895757
Lysosome	Cellular Component	GO:0005764	0.09319076	19.41733068	50.66943668
Nucleolus	Cellular Component	GO:0005730	0.125736862	12.48506494	27.416445
Nuclear Lumen	Cellular Component	GO:0031981	0.125736862	12.33504493	26.94947775
Intracellular Organelle Lumen	Cellular Component	GO:0070013	0.129821127	11.19415205	23.45919201
Intracellular Non-Membrane-Bounded Organelle	Cellular Component	GO:0043232	0.168760683	7.873953099	14.00991724
Regulation Of Chaperone-Mediated Autophagy	Biological Process	GO:1904714	0.011694499	1665.916667	11427.00155
Protein Localization To Cytoplasmic Stress Granule	Biological Process	GO:1903608	0.011694499	1665.916667	11427.00155
Positive Regulation Of miRNA-mediated Gene Silencing	Biological Process	GO:2000637	0.011694499	1249.3125	8255.546445
Positive Regulation Of Hippo Signaling	Biological Process	GO:0035332	0.011694499	1249.3125	8255.546445
Positive Regulation Of Post-Transcriptional Gene Silencing By RNA	Biological Process	GO:1900370	0.011694499	1110.444444	7220.954199
Regulation Of miRNA-mediated Gene Silencing	Biological Process	GO:0060964	0.014195537	713.6785714	4351.685757
Positive Regulation By Host Of Viral Process	Biological Process	GO:0044794	0.014195537	624.40625	3729.253306
Modulation By Host Of Viral Genome Replication	Biological Process	GO:0044827	0.014340222	499.425	2877.37169
Stress Granule Assembly	Biological Process	GO:0034063	0.014340222	434.2173913	2443.769793
Regulation Of Hippo Signaling	Biological Process	GO:0035330	0.014340222	416.1041667	2324.863325
Cellular Response To Epidermal Growth Factor Stimulus	Biological Process	GO:0071364	0.014340222	384.0576923	2116.293582
Response To Epidermal Growth Factor	Biological Process	GO:0070849	0.014603598	344.2758621	1860.860041
Regulation Of mRNA Processing	Biological Process	GO:0050684	0.01572303	293.5735294	1541.625367
Translational Elongation	Biological Process	GO:0006414	0.017513828	243.3658537	1233.68694
Regulation Of Alternative mRNA Splicing, Via Spliceosome	Biological Process	GO:0000381	0.020616068	191.7788462	927.6718551
Negative Regulation Of Amide Metabolic Process	Biological Process	GO:0034249	0.031131645	108.1793478	462.6710098
Regulation Of mRNA Splicing, Via Spliceosome	Biological Process	GO:0048024	0.031131645	107.0107527	456.5339024
Negative Regulation Of Macromolecule Biosynthetic Process	Biological Process	GO:0010558	0.031131645	102.5773196	433.3656574
Regulation Of RNA Splicing	Biological Process	GO:0043484	0.031131645	98.4950495	412.1983924
Negative Regulation Of Translation	Biological Process	GO:0017148	0.031131645	93.8254717	388.1897375

Pathways	Category	Adjusted P-value	Odds Ratio	Combined Score
Legionellosis	KEGG Pathway	0.017259077	178.0446429	848.3179948
Leishmaniasis	KEGG Pathway	0.017259077	131.0592105	585.1639325
RNA transport	KEGG Pathway	0.027642526	53.54594595	192.1442664

>M12294.2 West Nile virus RNA, complete genome AGTAGTTCGCCTGTGTGAGCTGACAAACTTAGTAGTGTTTGTGAGGATTAACAACAATTAACACAGTGCG AGCTGTTTCTTGGCACGAAGATCTCGATGTCTAAGAAACCAGGAGGGCCCGGTAAAAACCGGGCTGTCAA TATGCTAAAACGCGGTATGCCCCGCGGATTGTCCTTGATAGGACTAAAGAGGGCTATGCTGAGTCTGATT GACGGGAAGGGCCCAATACGTTTCGTGTTGGCTCTTTTGGCGTTTTTCAGATTCACTGCAATCGCTCCGA CTCGTGCGGTGCTGGACAGATGGAGAGGCGTCAACAAACAAACAGCAATGAAGCATCTCTTGAGTTTCAA GAAAGAACTAGGAACTCTGACCAGTGCCATCAACCGCCGGAGCACAAAACAAAAGAAAAGAGGAGGCACA GCGGGCTTTACTATCTTGCTTGGGCTGATCGCCTGTGCTGGAGCTGTGACCCTCTCGAACTTCCAGGGCA AAGTGATGATGACAGTCAATGCAACCGATGTCACTGACGTGATTACCATTCCAACAGCTGCTGGGAAAAA CCTGTGCATCGTAAGGGCTATGGACGTAGGATACCTTTGTGAGGATACTATCACTTATGAATGTCCGGTC CTAGCTGCTGGAAATGACCCTGAAGACATTGACTGCTGGTGCACGAAATCATCTGTTTACGTGCGCTATG GAAGATGCACAAAAACTCGGCATTCCCGTCGAAGCAGAAGGTCTCTGACAGTCCAGACACATGGAGAAAG TACACTGGCCAACAAGAAAGGAGCTTGGTTGGACAGCACAAAAGCCACGAGATATCTGGTGAAGACAGAA TCATGGATACTGAGAAACCCGGGCTACGCCCTCGTTGCAGCTGTCATTGGATGGATGCTAGGAAGCAACA CAATGCAACGCGTCGTGTTTGCCATTCTATTGCTCCTGGTGGCACCAGCATACAGCTTCAACTGTTTAGG AATGAGTAACAGAGACTTCCTGGAGGGAGTGTCTGGAGCTACATGGGTTGATCTGGTACTGGAAGGCGAT AGTTGTGTGACCATAATGTCAAAAGACAAGCCAACCATTGATGTCAAAATGATGAACATGGAAGCAGCCA ACCTCGCAGATGTGCGCAGTTACTGTTACCTAGCTTCGGTCAGTGACTTGTCAACAAGAGCTGCGTGTCC AACCATGGGTGAAGCCCACAACGAGAAAAGAGCTGACCCCGCCTTCGTTTGCAAGCAAGGCGTTGTGGAC AGAGGATGGGGAAATGGCTGCGGACTGTTTGGAAAGGGGAGCATTGACACATGTGCGAAGTTTGCCTGTA CAACCAAAGCAACTGGATGGATCATCCAGAAGGAAAACATCAAGTATGAGGTTGCCATATTTGTGCATGG CCCGACGACCGTTGAATCTCATGGCAAGATAGGGGCCACCCAGGCTGGAAGATTCAGTATAACTCCATCG GCGCCATCTTACACGCTAAAGTTGGGTGAGTATGGTGAGGTTACGGTTGATTGTGAGCCACGGTCAGGAA TAGACACCAGCGCCTATTACGTTATGTCAGTTGGTGAGAAGTCCTTCCTGGTTCACCGAGAATGGTTTAT GGATCTGAACCTGCCATGGAGCAGTGCTGGAAGCACCACGTGGAGGAACCGGGAAACACTGATGGAGTTT GAAGAACCTCATGCCACCAAACAATCTGTTGTGGCTCTAGGGTCGCAGGAAGGTGCGTTGCACCAAGCTC TGGCCGGAGCGATTCCTGTTGAGTTCTCAAGCAACACTGTGAAGTTGACATCAGGACATCTGAAGTGTCG GGTGAAGATGGAGAAGTTGCAGCTGAAGGGAACAACATATGGAGTATGTTCAAAAGCGTTCAAATTCGCT AGGACTCCCGCTGACACTGGCCACGGAACGGTGGTGTTGGAACTGCAATATACCGGAACAGACGGTCCCT GCAAAGTGCCCATTTCTTCCGTAGCTTCCCTGAATGACCTCACACCTGTTGGAAGACTGGTGACCGTGAA TCCATTTGTGTCTGTGGCCACAGCCAACTCGAAGGTTTTGATTGAACTCGAACCCCCGTTTGGTGACTCT TACATCGTGGTGGGAAGAGGAGAACAGCAGATAAACCATCACTGGCACAAATCTGGGAGCAGCATTGGAA AGGCCTTTACCACCACACTCAGAGGAGCTCAACGACTCGCAGCTCTTGGAGATACTGCTTGGGATTTTGG ATCAGTTGGAGGGGTTTTCACCTCAGTGGGGAAAGCCATACACCAAGTCTTTGGAGGAGCTTTTAGATCA CTCTTTGGAGGGATGTCCTGGATCACACAGGGACTTCTGGGAGCTCTTCTGTTGTGGATGGGAATCAATG CCCGTGACAGGTCAATTGCTATGACGTTTCTTGCGGTTGGAGGAGTTTTGCTCTTCCTTTCGGTCAACGT CCATGCTGACACAGGCTGTGCCATTGATATTGGCAGGCAAGAGCTCCGGTGCGGAAGTGGAGTGTTTATC CACAACGATGTGGAAGCCTGGATGGATCGTTACAAGTTCTACCCGGAGACGCCACAGGGCCTAGCAAAAA TTATCCAGAAAGCACATGCAGAAGGAGTCTGCGGCTTGCGTTCCGTTTCCAGACTCGAGCACCAAATGTG GGAAGCCATTAAGGATGAGCTGAACACCCTGTTGAAAGAGAATGGAGTCGACTTGAGTGTCGTGGTGGAA AAACAGAATGGGATGTACAAAGCAGCACCAAAACGTTTGGCTGCCACCACCGAAAAACTGGAGATGGGTT GGAAGGCTTGGGGCAAGAGTATCATCTTTGCGCCAGAACTAGCTAACAACACCTTTGTCATCGACGGTCC TGAGACTGAGGAATGCCCAACGGCCAACCGAGCATGGAACAGTATGGAGGTAGAGGACTTTGGATTTGGA CTGACAAGCACTCGCATGTTCCTGAGGATTCGGGAAACGAACACAACGGAATGCGACTCGAAGATCATAG GAACCGCCGTCAAGAACAACATGGCTGTGCATAGTGATCTATCATACTGGATAGAGAGCGGACTCAACGA CACCTGGAAGCTTGAGAGGGCGGTTCTAGGAGAAGTCAAATCATGCACCTGGCCAGAAACCCACACTCTG TGGGGTGATGGAGTTCTGGAAAGTGATCTCATCATACCCATCACCTTGGCAGGACCCAGAAGCAACCACA ACAGGAGACCAGGGTACAAAACTCAGAACCAAGGCCCATGGGATGAGGGGCGCGTCGAGATTGACTTTGA CTATTGCCCAGGAACAACAGTAACTATAAGTGACAGTTGCGAACACCGTGGACCTGCGGCACGCACAACC ACTGAGAGTGGGAAGCTCATCACAGACTGGTGCTGCAGAAGTTGCACCCTCCCTCCACTGCGCTTCCAGA CTGAGAATGGCTGTTGGTATGGAATGGAAATTCGACCTACGCGGCACGACGAAAAGACCCTCGTGCAATC GAGAGTGAATGCATACAACGCCGACATGATTGATCCTTTTCAGTTGGGCCTTATGGTCGTGTTCTTGGCC ACCCAGGAGGTCCTTCGCAAGAGGTGGACGGCCAAGATCAGCATTCCAGCTATCATGCTTGCACTCCTAG TCCTAGTGTTTGGGGGTATTACGTACACTGATGTCCTGCGATATGTCATTCTCGTCGGCGCCGCGTTTGC TGAAGCAAACTCAGGAGGAGACGTCGTGCACTTGGCACTTATGGCTACATTCAAGATTCAACCAGTCTTT CTGGTGGCTTCCTTTTTGAAGGCAAGGTGGACCAACCAAGAGAGTATTTTGCTCATGCTTGCAGCTGCTT TCTTCCAAATGGCTTACTATGACGCCAAGAATGTTCTGTCATGGGAAGTGCCTGACGTTTTGAACTCTCT CTCCGTTGCGTGGATGATTCTCAGAGCTATAAGCTTCACCAACACTTCAAATGTGGTGGTGCCGCTGCTG GCCCTTTTGACACCTGGATTGAAATGCTTAAACCTTGATGTGTACAGAATTTTGCTACTCATGGTTGGAG TTGGAAGCCTCATCAAAGAAAAAAGGAGCTCTGCAGCAAAAAAGAAAGGAGCTTGCCTCATCTGCCTAGC GCTGGCGTCTACAGGAGTGTTCAATCCAATGATACTTGCAGCTGGGCTAATGGCTTGCGACCCCAACCGC AAGCGGGGCTGGCCTGCTACAGAAGTGATGACTGCAGTTGGACTCATGTTTGCCATCGTTGGGGGTCTGG CAGAACTTGACATAGATTCTATGGCTATCCCCATGACCATCGCCGGACTTATGTTCGCGGCATTTGTCAT CTCTGGAAAGTCAACAGACATGTGGATTGAGAGGACGGCTGACATTACTTGGGAGAGTGATGCTGAAATC ACAGGCTCTAGCGAAAGAGTAGATGTGAGGCTGGATGATGATGGAAATTTTCAACTGATGAATGACCCCG GGGCACCATGGAAAATTTGGATGCTTAGGATGGCCTGCCTGGCGATAAGTGCCTACACACCTTGGGCAAT TCTCCCCTCGGTCATCGGATTCTGGATAACCCTTCAGTACACAAAGAGAGGAGGTGTTCTTTGGGACACA CCATCACCCAAGGAGTACAAGAAGGGTGATACCACCACTGGCGTTTACAGAATCATGACTCGAGGTCTGC TTGGCAGTTACCAAGCTGGAGCCGGAGTGATGGTAGAGGGGGTGTTCCACACACTATGGCACACCACTAA GGGAGCTGCTCTCATGAGTGGTGAGGGACGTCTGGATCCCTACTGGGGGAGCGTGAAAGAGGACCGACTT TGCTATGGGGGGCCATGGAAACTCCAACATAAATGGAATGGACATGATGAGGTCCAAATGATTGTCGTGG AGCCAGGGAAAAATGTGAAAAACGTCCAGACCAAGCCCGGAGTGTTTAAGACACCAGAAGGAGAAATTGG GGCAGTTACGCTAGACTATCCTACCGGAACGTCAGGTTCCCCCATTGTAGACAAAAATGGAGATGTGATT GGATTGTATGGGAACGGCGTCATCATGCCTAATGGTTCATACATAAGCGCCATTGTGCAAGGAGAGAGAA TGGAAGAACCGGCACCAGCTGGCTTCGAACCTGAAATGTTGAGGAAGAAACAGATCACTGTCCTTGATCT GCACCCCGGAGCAGGAAAGACACGCAAGATACTTCCCCAAATCATCAAGGAGGCCATCAACAAAAGATTG AGGACGGCTGTGCTGGCACCCACCAGGGTCGTTGCTGCTGAGATGTCTGAGGCCCTGAGAGGACTTCCCA TTCGGTACCAAACCTCAGCAGTGCACAGAGAGCACAGTGGAAATGAGATCGTTGATGTCATGTGCCATGC CACCCTCACACACAGGCTGATGTCTCCACACAGAGTCCCCAACTACAACCTGTTCATAATGGATGAAGCC CATTTCACGGATCCAGCGAGCATCGCAGCCAGAGGATACATAGCAACCAAGGTTGAATTGGGCGAAGCCG CCGCGATTTTCATGACGGCAACGCCACCCGGGACTTCTGACCCCTTTCCAGAGTCTAATGCTCCTATCTC GGACATGCAAACAGAGATCCCAGACAGAGCCTGGAACACTGGATATGAATGGATAACTGAGTATGTTGGA AAGACCGTTTGGTTTGTTCCAAGTGTGAAAATGGGAAATGAGATTGCCCTCTGTCTGCAACGGGCGGGGA AGAAGGTTATCCAGCTGAACAGAAAGTCCTATGAGACAGAGTACCCCAAGTGTAAGAACGATGATTGGGA TTTTGTCATCACCACAGACATATCAGAAATGGGAGCCAACTTCAAGGCGAGCAGAGTGATCGACAGCCGC AAAAGCGTGAAACCCACCATCATTGAGGAAGGTGATGGAAGAGTCATCCTGGGGGAACCCTCAGCCATCA CGGCTGCCAGCGCTGCTCAGCGGAGAGGACGCATAGGAAGAAACCCATCACAAGTTGGTGATGAGTATTG CTATGGAGGGCACACAAATGAGGATGATTCCAACTTTGCTCACTGGACAGAGGCTCGCATCATGCTAGAC AACATCAACATGCCGAATGGTCTGGTGGCTCAACTATATCAGCCTGAGCGCGAGAAGGTGTACACCATGG ACGGGGAATACAGGCTCAGAGGGGAAGAACGGAAGAACTTCCTTGAATTCCTGAGAACAGCTGATTTACC AGTCTGGCTCGCTTACAAAGTGGCAGCAGCAGGAATATCATACCATGACCGGAAATGGTGCTTTGATGGA CCTCGAACCAACACGATTCTTGAAGACAACAATGAAGTTGAAGTCATCACGAAGTTGGGTGAGAGAAAGA TCCTAAGACCCAGGTGGGCAGATGCTAGAGTGTACTCAGACCATCAAGCTCTAAAGTCCTTCAAAGATTT TGCATCGGGGAAACGATCACAAATCGGGCTCGTTGAGGTGCTCGGGAGAATGCCTGAACACTTCATGGTG AAAACTTGGGAGGCATTGGACACGATGTATGTGGTGGCGACCGCTGAAAAAGGAGGCCGAGCTCACAGGA TGGCTCTTGAGGAGCTACCGGACGCCCTTCAGACAATAGTTTTGATTGCACTATTGAGTGTGATGTCCTT AGGTGTGTTTTTTCTACTCATGCAAAGGAAGGGCATTGGTAAGATTGGCTTGGGAGGAGTAATCTTAGGA GCTGCCACATTCTTCTGCTGGATGGCTGAAGTCCCAGGAACGAAAATAGCAGGCATGCTCCTGCTTTCCC TGCTGCTCATGATTGTTTTGATTCCGGAGCCGGAAAAGCAGCGCTCACAGACTGATAACCAGCTCGCCGT GTTCTTGATCTGTGTGCTCACACTGGTCGGCGCCGTGGCTGCCAATGAAATGGGCTGGCTGGACAAGACC AAGAATGACATTGGCAGCCTGTTGGGGCACAGGCCAGAAGCTAGAGAGACGACCCTGGGAGTTGAGAGCT TCTTACTTGATCTGCGGCCGGCCACGGCATGGTCGCTCTATGCCGTAACGACAGCCGTTCTCACCCCTTT GCTGAAGCATCTAATCACGTCAGACTACATCAACACTTCGTTGACCTCAATAAACGTCCAAGCCAGCGCG TTGTTCACTTTGGCCAGAGGCTTCCCTTTTGTGGACGTTGGTGTGTCAGCTCTCTTGCTGGCGGTCGGGT GCTGGGGTCAGGTGACTCTGACTGTGACTGTGACTGCAGCTGCTCTGCTCTTTTGCCACTATGCTTACAT GGTGCCAGGCTGGCAAGCGGAAGCCATGCGATCTGCCCAGCGGCGGACAGCTGCTGGCATCATGAAAAAT GTAGTGGTGGATGGGATCGTGGCCACTGATGTACCTGAACTTGAACGAACAACTCCAGTCATGCAGAAAA AAGTTGGACAGATCATATTGATCTTGGTATCAATGGCCGCGGTGGTCGTCAATCCATCAGTGAGAACCGT CAGAGAGGCCGGAATTCTGACTACAGCAGCAGCAGTCACCCTATGGGAGAATGGTGCTAGTTCAGTGTGG AATGCAACGACAGCTATTGGCCTTTGTCACATCATGCGAGGAGGATGGCTCTCGTGTCTCTCCATCATGT GGACTCTCATCAAAAACATGGAGAAACCAGGCCTCAAGAGGGGTGGAGCCAAAGGACGCACGCTAGGGGA AGTTTGGAAGGAGAGACTCAACCACATGACGAAGGAAGAATTTACCAGATACAGAAAAGAAGCCATCACT GAAGTTGACCGCTCCGCAGCAAAACATGCTAGGAGAGAGGGAAACATCACTGGAGGCCACCCAGTCTCAC GGGGAACCGCGAAATTACGGTGGTTAGTGGAAAGGCGTTTCCTCGAGCCAGTGGGAAAGGTTGTGGATCT CGGGTGTGGTAGAGGCGGCTGGTGCTATTACATGGCTACCCAGAAGAGGGTACAGGAAGTGAAAGGGTAC ACGAAAGGAGGACCTGGCCATGAAGAACCACAACTGGTGCAGAGCTATGGTTGGAATATTGTTACCATGA AGAGTGGAGTCGACGTCTTCTACAGACCATCAGAAGCGAGCGACACACTGCTCTGTGACATTGGAGAGTC ATCGTCAAGTGCCGAGGTAGAAGAACACCGCACCGTCCGTGTCCTGGAGATGGTGGAAGATTGGTTGCAC AGAGGACCGAAGGAATTCTGCATCAAAGTGCTATGCCCTTACATGCCCAAAGTGATTGAGAAGATGGAAA CACTCCAAAGGCGATATGGAGGTGGCCTTATAAGAAACCCCCTTTCACGCAACTCTACCCATGAGATGTA CTGGGTGAGCCACGCTTCAGGCAATATCGTCCACTCCGTCAACATGACAAGCCAGGTGCTTCTGGGGAGG ATGGAAAAGAAAACATGGAAGGGACCCCAGTTTGAGGAAGATGTCAACTTGGGAAGTGGAACGCGGGCAG TAGGGAAGCCTCTCCTCAATTCTGATACTAGCAAGATCAAGAACCGAATTGAGAGGCTGAAGAAAGAATA CAGCTCCACATGGCACCAGGATGCGAACCACCCCTACAGGACCTGGAACTACCACGGAAGCTATGAAGTG AAACCAACCGGCTCAGCCAGCTCCCTTGTGAATGGGGTAGTCAGATTACTCTCAAAACCATGGGACACTA TCACCAATGTGACCACGATGGCCATGACAGACACCACTCCTTTCGGTCAACAACGAGTGTTCAAGGAAAA GGTGGACACAAAGGCTCCAGAGCCTCCAGAAGGAGTCAAATACGTCCTCAATGAGACCACGAACTGGCTG TGGGCTTTTTTAGCCCGCGATAAGAAACCCAGGATGTGTTCCCGGGAGGAATTTATTGGAAAAGTCAACA GTAATGCCGCCCTAGGAGCGATGTTTGAAGAACAGAACCAATGGAAGAACGCCCGGGAAGCTGTAGAGGA TCCAAAGTTTTGGGAGATGGTGGATGAGGAGCGTGAAGCGCATCTCCGTGGAGAATGCAACACCTGCATC TACAACATGATGGGAAAGAGAGAGAAGAAGCCTGGAGAGTTCGGCAAAGCTAAAGGCAGCAGAGCCATCT GGTTCATGTGGCTGGGGGCCCGCTTCCTGGAGTTTGAAGCTCTCGGATTCCTCAATGAAGACCACTGGCT GGGTAGGAAGAACTCAGGAGGAGGAGTTGAAGGCTTAGGACTGCAGAAGCTCGGGTACATCTTGAAGGAA GTTGGAACAAAGCCTGGAGGAAAGGTTTACGCTGATGATACCGCAGGCTGGGACACACGCATCACCAAAG CTGACCTCGAGAATGAAGCGAAGGTTCTTGAACTGCTGGATGGAGAACATCGACGTTTAGCGCGGTCCAT CATCGAGCTCACATACCGACACAAAGTCGTGAAAGTGATGAGGCCAGCGGCCGACGGGAAAACTGTGATG GACGTCATCTCTAGAGAGGATCAGAGAGGAAGCGGTCAGGTAGTGACTTACGCCCTGAACACCTTCACCA ATCTAGCAGTTCAGCTGGTCAGAATGATGGAGGGGGAGGGGGTCATTGGACCCGATGATGTTGAAAAACT GGGAAAAGGAAAAGGCCCTAAGGTCAGAACCTGGCTGTTTGAGAATGGCGAGGAGCGTCTCAGTCGCATG GCCGTCAGCGGTGATGACTGCGTGGTGAAACCTTTGGACGACCGCTTCGCCACATCACTACACTTCCTAA ATGCTATGTCAAAGGTCCGCAAAGACATCCAGGAATGGAAACCCTCGACGGGGTGGTATGACTGGCAGCA GGTTCCATTCTGTTCAAACCATTTCACGGAACTGATCATGAAGGACGGCAGGACGCTGGTGGTCCCGTGT CGTGGACAAGACGAGTTGATTGGACGTGCCAGGATCTCTCCAGGGGCTGGATGGAATGTGCGCGACACCG CCTGCCTGGCGAAGTCATACGCGCAGATGTGGCTGCTGCTTTATTTCCACCGTAGAGACCTGAGATTGAT GGCCAATGCCATCTGTTCCGCTGTGCCTGCCAACTGGGTTCCCACAGGGCGTACCACTTGGTCGATCCAC GCAAAAGGAGAATGGATGACGACGGAAGACATGCTCGCAGTCTGGAACAGAGTGTGGATTGAGGAGAATG AGTGGATGGAAGACAAAACACCAGTTGAGAGGTGGAGTGATGTTCCATACTCTGGAAAGAGAGAGGACAT TTGGTGTGGCAGTTTGATCGGCACACGAACCCGCGCCACTTGGGCTGAAAATATCCATGTGGCAATCAAT CAGGTCCGTTCAGTGATTGGAGAAGAGAAGTATGTGGATTACATGAGCTCCTTGAGGAGGTATGAAGACA CCATTGTAGTGGAGGACACTGTTTTGTAAAAGATAGTATTATAGTTAGTTTAGTGTAAATAGGATTTATT GAGAATGGAAGTCAGGCCAGATTAATGCTGCCACCGGAAGTTGAGTAGACGGTGCTGCCTGCGGCTCAAC CCCAGGAGGACTGGGTGACCAAAGCTGCGAGGTGATCCACGTAAGCCCTCAGAACCGTCTCGGAAGGAGG ACCCCACGTGCTTTAGCCTCAAAGCCCAGTGTCAGACCACACTTTAATGTGCCACTCTGCGGAGAGTGCA GTCTGCGATAGTGCCCCAGGTGGACTGGGTTAACAAAGGCAAAACATCGCCCCACGCGGCCATAACCCTG GCTATGGTGTTAACCAGGGAGAAGGGACTAGAGGTTAGAGGAGACCCCGCGTAAAAAAGTGCACGGCCCA ACTTGGCTGAAGCTGTAAGCCAAGGGAAGGACTAGAGGTTAGAGGAGACCCCGTGCCAAAAACACCAAAA GAAACAGCATATTGACACCTGGGATAGACTAGGGGATCTTCTGCTCTGCACAACCAGCCACACGGCACAG TGCGCCGACATAGGTGGCTGGTGGTGCTAGAACACAGGATCT

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Details of Virus RNA

Full list of proteins interacting with the 3'UTR of this Strain

Functional Go Enrichment analysis of those proteins interacting with the 3'UTR of this Strain

Functional KEGG Enrichment analysis of those proteins interacting with the 3'UTR of this Strain

Virus RNA Sequence Information